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microscopy platforms that enable quantitative magnetic field measurements with nanometer-scale spatial resolution and ultra-high sensitivity. These systems allow, for example, the detection of extremely weak
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Raman microscopy, this work will enable “greyscale” detection of molecular-level forces and provide new insight into early-stage damage processes in polymers. The research will focus on the synthesis
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will combine infection models and patient-derived samples with approaches spanning cell and structural biology, supported by advanced imaging techniques, including cryo-electron microscopy (cryo-EM) and
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shape a new research group. Experience in 3D cell culture, microscopy techniques (e.g., fluorescence and confocal microscopy), as well as organoid-based disease modeling is an advantage. An interest
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iPSC culture and differentiation, ideally in organoid systems. You are skilled in gene editing technologies, including CRISPR/Cas9. You are experienced in imaging approaches such as confocal microscopy
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(100%) for up to 3 years Environment: A collaborative, international team at ETH Zurich's Basel campus with access to state-of-the-art HD-MEA technology and microscopy facilities Collaboration: Close